A structured least squares based ESPRIT method is devised for joint direction-of-arrival and frequency estimation. By considering the errors in the estimated signal subspace and employing an iterative minimization procedure, the proposed approach is able to efficiently refine the estimated signal sub-space, leading to significant enhancement in estimation per-formance. Simulation results demonstrate the effectiveness of the proposed approach. 1
A low-complexity ESPRIT method for direction-of-arrival (DOA) estimation is proposed in this paper. ...
A key problem in high-resolution multidimensional parameter estimation via unitary ESPRIT is to join...
A key problem in high-resolution multidimensional parameter estimation via unitary ESPRIT is to join...
High-resolution parameter estimation techniques have recently been applied to jointly estimate multi...
High-resolution parameter estimation techniques have recently been applied to jointly estimate multi...
A structured least squares (SLS)–based ESPRIT algorithm for direction-of-arrival (DOA) estimation of...
An automatic pairing joint direction-of-arrival (DOA) and frequency estimation is presented to overc...
Multi-resolution ESPRIT is an extension of the ESPRIT direction finding algorithm to antenna arrays ...
The key task in ESPRIT-based parameter estimation is finding the solution to the shift invariance eq...
In many practical signal processing applications, the objective is to estimate the direction-of-arri...
In electronic warfare information about radio signals is gathered. Parameters as the direction-of-ar...
This paper introduces a new algorithm, Derivative DFT Beamspace ESPRIT, that provides closed-form es...
This paper introduces a new algorithm, Derivative DFT Beamspace ESPRIT, that provides closed-form es...
This paper introduces a new algorithm, Derivative DFT Beamspace ESPRIT, that provides closed-form es...
The TLS ESPRIT method is investigated in application to estimation of angular coordinates (angles of...
A low-complexity ESPRIT method for direction-of-arrival (DOA) estimation is proposed in this paper. ...
A key problem in high-resolution multidimensional parameter estimation via unitary ESPRIT is to join...
A key problem in high-resolution multidimensional parameter estimation via unitary ESPRIT is to join...
High-resolution parameter estimation techniques have recently been applied to jointly estimate multi...
High-resolution parameter estimation techniques have recently been applied to jointly estimate multi...
A structured least squares (SLS)–based ESPRIT algorithm for direction-of-arrival (DOA) estimation of...
An automatic pairing joint direction-of-arrival (DOA) and frequency estimation is presented to overc...
Multi-resolution ESPRIT is an extension of the ESPRIT direction finding algorithm to antenna arrays ...
The key task in ESPRIT-based parameter estimation is finding the solution to the shift invariance eq...
In many practical signal processing applications, the objective is to estimate the direction-of-arri...
In electronic warfare information about radio signals is gathered. Parameters as the direction-of-ar...
This paper introduces a new algorithm, Derivative DFT Beamspace ESPRIT, that provides closed-form es...
This paper introduces a new algorithm, Derivative DFT Beamspace ESPRIT, that provides closed-form es...
This paper introduces a new algorithm, Derivative DFT Beamspace ESPRIT, that provides closed-form es...
The TLS ESPRIT method is investigated in application to estimation of angular coordinates (angles of...
A low-complexity ESPRIT method for direction-of-arrival (DOA) estimation is proposed in this paper. ...
A key problem in high-resolution multidimensional parameter estimation via unitary ESPRIT is to join...
A key problem in high-resolution multidimensional parameter estimation via unitary ESPRIT is to join...